DE10047194C1 - Device for testing fire alarm consisting of smoke detector and gas sensor comprises testing head holding alarm, first gas bottle having first gas outlet opening protruding into testing head, and gas bottle for process gas - Google Patents

Abstract

Device for testing a fire alarm consisting of a smoke detector (27) and a gas sensor (26) comprises a testing head (3) holding the alarm; a first gas bottle (9) containing an aerosol and having a first valve and a first gas outlet opening (11) protruding into the testing head; and a gas bottle for process gas. An Independent claim is also included for a process for testing a fire alarm. Preferred Features: The device has a gas bottle (10) for a testing gas with a valve (8), the gas bottle being connected to the first gas outlet opening. The gas bottle (10) has a second gas outlet opening (12). The testing gas is methanol or ethanol. The device further contains an electrolysis unit for producing hydrogen, the unit containing an aqueous sodium sulfate solution.

Description

State of the art

The invention is based on a device or a Ver drive to test a fire alarm according to the type of independent claims.

Fire detectors are switched on at regular intervals Functionality checked.

DE 20 54 027 B2 describes a device to check the operational readiness of smoke detectors beaten, among other things, from one above the detector reversible test vessel, which here by a beam-shaped Man is formed as well as from an aerosol filled spray can with a valve and one in which Test room opening gas outlet opening exists. From the Of DE 198 45 553 A1 is a fire alarm that has a smoke detector and at least one gas sensor, known. From the utility model DE 94 08 898 U1 is a Ge Fahrmelder known that switching to a test engine dus enables and also means for optical and / or acoustic signaling of a functionality of the mel it has.

Advantages of the invention

The device according to the invention or the invention In contrast, procedures for testing a fire alarm have the advantage that for a fire detector that has a smoke detector which and has at least one gas sensor, in one area the corridor of smoke detectors and at least one gas sensor their functionality can be checked. So that will the functional test of the fire detector is simplified and be accelerated. Furthermore, the device according to the invention creates a test device that provides all stimuli for the existing Sensors (smoke detectors, gas sensors, temperature sensors) of the Provides fire alarm.  

By those listed in the dependent claims Measures and further training are advantageous Improvements in the independent claim specified device or in the independent Claim specified method for testing a Fire alarm possible.

It is particularly advantageous that the aerosol for the Smoke detectors and the test gas for at least one Gas sensor in separate gas bottles in the invention Device is present so that the gases individually are interchangeable and storable.

It is also advantageous that the at least one Test gas and the aerosol are stored in a gas bottle, leaving room for another gas bottle in the device according to the invention is saved. This simplifies the storage and replacement of the aerosol the test gas. It is advantageous to continue possible that the test gas and the aerosol are identical, which is a lot of effort for the construction and operation of the saves device according to the invention.

Furthermore, it is advantageous that as the test gases Methanol or ethanol or hydrogen can be used due to a cross sensitivity of the gas sensors for the Function test can be used. Cross sensitivity of Gas sensors means that a gas sensor is not just for that Gas for which it is designed is a detection signal but also for other gases, whereby methanol, Ethanol and hydrogen are particularly suitable for this. It is advantageous that hydrogen, which in the Generally difficult to stock here for that Functional test using electrolysis from a Sodium sulfate solution is extracted to the hydrogen only  to be provided if necessary. The alcohols methanol and Ethanol also offer the possibility of being used as an aerosol Act.

In addition, it is advantageous that a Gas outlet opening on a temperature sensor of the Fire detector is directed to through the gas outlet Forcing temperature drop on the temperature sensor for a function test of the temperature sensor can be used. This will then be three different measuring principles in one Work on the fire detector for its functionality checked.

In addition, it is advantageous that the valves can be actuated mechanically or electromechanically, with an automatic actuation sequence of opening times are adjustable for optimal simultaneous Check the smoke detector and gas sensor as have proven advantageous. This allows in particular the Optimize consumption of test gas and aerosol.

It is also advantageous that the gas cylinders as Spray cans are designed, with which the installation and the Use is significantly simplified.

Finally, it is also an advantage that a fire detector, that should be checked for functionality, Has means to switch to a test mode and still has means to signal whether the Fire detector works or not. In particular, the sensor of the smoke detector, the at least one gas sensor or the temperature sensor are functional or not. This is mostly in Connected to a safety net seen by a Central is monitored and to which to be checked  Detectors are connected. The fire detector is then in the Control mode of the control center signal whether the Functionality of the existing sensors (smoke, gas, Temperature) is given or not. As a safety net is for example the well known LSN (local Safety network) bus can be used.

drawing

Exemplary embodiments of the invention are shown in the drawing and are explained in more detail in the following description. It shows Fig. 1 a first embodiment of the device according to the invention, Fig. 2 shows a second embodiment of the device according to the invention, Fig. 3 shows a third embodiment of the device according to the invention, Fig. 4, the electrolysis unit, and FIG. 5 is a flowchart of the inventive method.

description

In the future it is expected that in addition to pure Combined smoke detectors for fire detection Fire detectors are used next to the smoke detector have one or more gas sensors, which on the at a gaseous combustion product arising from a fire react. Such combustion products include for example carbon dioxide, carbon monoxide or nitrogen oxides. The great advantage of these combined fire detectors is that a more reliable thanks to the additional information obtained Detector is present. However, since such fire detectors in periodic intervals for their functionality are checked, a device for Checking the fire alarm or a procedure for Review of the fire alarm specified that allow that the existing sensors in a fire alarm  at the same time, its functionality can be checked are.

Fig. 1 shows a first embodiment of the device according to the invention for checking a fire alarm. A fire detector 2 is attached to a wall or ceiling 1 . The fire detector 2 has a temperature sensor 25 , a gas sensor 26 and a smoke detector 27 . The smoke detector is an optical measuring chamber to which a labyrinth-like passage leads. This is a stray smoke detector. The fire detector 2 can also be provided without a temperature sensor 25 and / or with a plurality of gas sensors. The temperature sensor 25 , the gas sensor 26 and the smoke detector 27 are connected to the signal processing in the fire detector 2 , so that detection signals can be recognized and signaled.

The device according to the invention has a test pot 3 which is placed over the fire detector 2 . A housing 4 has gas bottles 9 and 10 as well as valves 7 and 8 and lines via which the aerosol and the at least one test gas are passed into the test pot 3 . A gas outlet opening 11 is therefore provided for the gas bottle 9 and a gas outlet opening 12 is provided for the gas bottle 10 , which protrude into the test pot 3 . The aerosol or the test gas is stored under positive pressure in the gas bottles 9 and 10 , so that when the valves 7 and 8 are opened the aerosol or the test gas automatically escape. The overpressure in the gas bottles 9 and 10 can also arise from the evaporation pressure of the aerosol or the test gas. The gas bottles 9 and 10 are designed here as spray cans.

The lines to the gas outlet openings 11 and 12 are each sealed at the bores by the test pot 3 .

The housing 4 is attached to the test pot 3 . The gas bottle 9 in the housing 4 here has the aerosol that is used to test the function of the smoke detector 27 . A valve 7 is attached to the gas bottle 9 and determines the amount of aerosol flowing out through the gas outlet opening 11 . The valve 7 is connected via an electrical connection to a control unit 6 which is attached to the housing 4 . The control unit 6 controls the opening and closing of the valve 7 . The control unit 6 is here a programmable module, that is to say a processor, with corresponding signal processing for controlling the valves and for processing control signals which are sent by an operator of the device according to the invention.

The gas bottle 10 has a valve 8 , which determines the outflowing amount of the test gas, which is located in the gas bottle 10 , through the gas outlet opening 12 . The valve 8 is also electrically connected to the control unit 6 via a line, so that the control unit 6 regulates the opening of the valve 8 . The device according to the invention is held on the fire alarm 2 by means of a holding rod 5 which is fastened to the housing 4 .

It is possible to open and close the valves 7 and 8 via a mechanical control. Appropriate mechanical pull and lever devices can be used for this purpose. However, the control unit 6 here has an infrared receiver with an optical-electrical converter and reception amplifier in order to be controllable by means of a remote control. The valves 7 and 8 are then controlled in accordance with these infrared signals. However, radio control of the control unit 6 is also possible. Furthermore, it is possible for the control unit 6 to be mounted inside the housing 4 , a transmitting / receiving station for infrared signals being located outside the housing 4 , or the control unit 6 can be controlled via a window via the remote control.

The control unit 6 is particularly suitable for precisely controlling the valves 7 and 8 . This is advantageous because the aerosol density suitable for testing the smoke detector can be reached after a different period of time than it is the suitable gas concentration for the gas sensor 26 . In this case, the operator triggers a program on the control unit that automatically controls the opening and closing of the valves. This also leads to a lower consumption of test gas and aerosol and thus increases the service life of a gas filling.

The aerosol has the effect of smoke, so that a smoke detector can be checked for functionality with the aerosol. If the smoke detector 27 is present, as here, with a labyrinth-like passage through which the smoke must penetrate, then the aerosol will penetrate through this labyrinth-like passage to get into the measuring chamber. An optical measurement in the measuring chamber determines whether there is smoke or not. For this purpose, a transmission measurement is used, for example. However, scattered light measurement is used more frequently.

The functionality of the gas sensor 26 of the fire detector 2 is checked with the test gas that comes out of the outlet opening 12 and is stored in the bottle 10 . The test gas can either contain the gas to be detected by the gas sensor 26 or a further gas to which the gas sensor 26 also reacts with a detection signal. This behavior is known as cross sensitivity. Gases to which a gas sensor reacts in a cross-sensitive manner are, for example, gaseous methanol, ethanol, other alcohols or hydrogen. With the alcohols methanol and ethanol it should be noted that these alcohols are volatile and therefore change into a gaseous state relatively quickly. Furthermore, it is possible that the gas flowing out of the gas outlet openings 11 or 12 can be used to test the function of the temperature sensor 25 located on the fire detector 2 . If a gas flows from a gas outlet opening onto the temperature sensor 25 , the evaporation or expansion cooling results in cooling at the temperature sensor 25 . This cooling happens so quickly that it would otherwise not occur under normal operating conditions. This rapid temperature drop can therefore be used for a functional check of the temperature sensor 25 .

In FIG. 2, a second embodiment of the device according to the invention for testing a fire detector. The fire detector 2 is attached to the wall 1 . The fire detector 2 has the temperature sensor 25 , the gas sensor 26 and the smoke detector 27 . The test pot 3 of the device according to the invention is placed over the fire detector 2 . The gas outlet opening 11 projects into the test pot 3 , via which both the aerosol from the gas bottle 9 and the test gas from the gas bottle 10 now reach the test pot 3 . The gas bottles 9 and 10 and the valves 7 and 8 are located within the housing 4 , which is attached to the test pot 3 . The control unit 6 , which controls the valves 7 and 8, is also located on the housing 4 . The housing 4 with the test pot 3 is held by the holding rod 5 , which is itself attached to the housing 4 . The valves 7 and 8 thus allow both the test gas and the aerosol to reach the gas outlet opening 11 via a common line.

In Fig. 3 shows a third embodiment of the device according to the invention for testing the fire detector. The fire detector 2 is in turn attached to the wall 1 . The fire detector 2 has the temperature sensor 25 , the gas sensor 26 and the smoke detector 27 . The test pot 3 is placed over the fire detector 2 . The housing 4 of the device according to the invention is attached to the test pot 3 . On the housing 4 , the support rod 5 is also attached, with which the device according to the invention is held. The evaluation unit 6 , which controls the valve 7 within the housing, is also attached to the housing 4 . The valve 7 belongs to the gas bottle 9 , which contains both the aerosol and the test gas. This gas mixture will then pass via the valve 7 to the gas outlet opening 11 which projects into the test pot 3 in order to carry out the function test of the fire detector 2 . The aerosol can be a complex hydrocarbon compound, but it is also possible to use an alcohol such as methanol, ethanol or propanol as the aerosol and test gas at the same time. The rapid evaporation of these alcohols must then be taken into account during the test process. It is important that enough alcohol as aerosol can get into the measuring chamber of the fire detector 2 in order to produce a detection signal.

FIG. 4 shows an electrolysis unit with which hydrogen can be obtained as a test gas, which is then used as a test gas for the gas sensor 26 of the fire detector 2 . a control unit 13 is connected to electrodes 16 and 17 , which protrude into a vessel 18 and are inside a sodium sulfate solution 19 . The control unit 13 is integrated in the control 6 here. Alternatively, it is possible for the control 6 and control unit 13 to be separate but electrically connected components. The electrolysis unit is accommodated in the housing 4 instead of the gas bottle for the test gas.

The positive pole is connected to one of the electrodes 16 or 17 and the negative pole is connected to the other electrode, so that a reduction or an oxidation can take place, which then leads to the liberation of hydrogen in a diatomic form and to oxygen also in a diatomic form , These gases then pass out of the vessel 18 via the gas tubes 20 and 21 , a valve 15 being located on the gas tube 20 , which is controlled by the control 13 and a valve 14 on the gas tube 21 , which is also controlled by the control 13 is controlled. The released oxygen can simply be released into the atmosphere, while the released hydrogen is fed as a test gas into the test pot 3 . This device for electrolysis is housed in the housing 4 instead of the gas bottle 10 . It has the advantage that hydrogen does not have to be stored, but is produced when required.

In Fig. 5, the inventive method is illustrated as a flow chart. In method step 22 , the device according to the invention for checking the fire detector is put over the fire detector 2 . The fire detector 2 is switched into a test mode, either by the test device, which actuates a magnetic switch when it is put over it, or by the control center, which puts all the detectors to be checked into the test mode for the test process. For this purpose, the fire detector 2 has a communication module and a processor in order to receive and interpret data from the control center. The communication module is then also used to transfer the measurement results back to the control center.

The actual function test is then carried out in method step 23 as shown above. Both the aerosol for the function test of the smoke detector 27 and a test gas for the function test of the gas sensor 26 are used, and the signaling signals of the fire detector 2 are checked as to whether the functionality is still present. If necessary, an existing temperature sensor 25 can also be tested here in the manner described above. The fire detector 2 can be connected to a control center via a bus or a line in order to forward these measurement results to the control center. Alternatively, it is possible for the fire detector 2 to have means for signaling, for example a display or a loudspeaker. The functional capabilities of the individual sensors are then represented via these means for signaling. Finally, these measurement results are recorded in method step 24 .

Claims (17)

1. Device for testing a fire detector, the fire detector ( 2 ) having a smoke detector ( 27 ) and at least one gas sensor ( 26 ), the device having a test pot ( 3 ) which can be placed over the fire detector ( 2 ), wherein , the apparatus comprising a first gas cylinder (9) with Ae rosol for the functional testing of the smoke detector (27) wherein the first gas cylinder having a first valve and a first gas outlet opening (11), wherein the first gas from the opening (11) into the testing cup (3) protrudes, characterized in that for the simultaneous functional test of the smoke detector and at least one gas sensor, the device has a gas bottle provided for this purpose with at least one process gas suitable for a gas sensor. 2. Device according to claim 1, characterized in that the device has a second gas bottle ( 10 ) for the at least one test gas, the second gas bottle ( 10 ) having a second valve ( 8 ). 3. Device according to claim 2, characterized in that the second gas bottle ( 10 ) is connected to the first gas outlet opening ( 11 ). 4. The device according to claim 2, characterized in that the second gas bottle ( 10 ) has a second gas outlet opening ( 12 ). 5. The device according to claim 1, characterized in that the at least one test gas in the first gas bottle ( 9 ) is housed un, wherein the at least one test gas is an aerosol. 6. Device according to one of the preceding claims, there characterized in that the at least one test gas Is methanol or ethanol. 7. The device according to claim 1, characterized in that the device is an electrolysis unit for generating Has hydrogen as the at least one test gas. 8. The device according to claim 7, characterized in that the electrolysis unit an aqueous sodium sulfate solution having. 9. Device according to one of the preceding claims, characterized in that the first gas outlet opening ( 11 ) is directed towards a temperature sensor of the fire detector ( 2 ). 10. Device according to one of claims 2 to 9, characterized in that the first and the second valve ( 7 , 8 ) can be controlled mechanically or electromechanically. 11. The device according to claim 10, characterized in that the device has a control unit ( 6 ) which controls the first and / or second valve ( 7 , 8 ). 12. Device according to one of the preceding claims, characterized in that the first and / or second Gasfla cal ( 9 , 10 ) are designed as a spray can. 13. A method for testing a fire detector, wherein a functional test of a smoke detector of the fire detector ( 2 ) is carried out with an aerosol, characterized in that, together with the functional test of the smoke detector, a functional test of at least one gas sensor of the fire detector ( 2 ) is carried out with at least one test gas becomes. 14. The method according to claim 13, characterized in that the aerosol and the at least one test gas are applied either simultaneously or directly in succession to the fire detector ( 2 ). 15. The method according to claim 13 or 14, characterized in that hydrogen is used for testing the at least one gas sensor ( 26 ), which is obtained by means of electrolysis. 16. The method according to claim 13 or 14, characterized in net that for testing the at least one gas sensor metha nol or ethanol is used. 17. The method according to any one of claims 13 to 16, characterized in that a temperature sensor of the fire detector ( 2 ) is subjected to a functional test by a temperature reduction by the aerosol sprayed onto the temperature sensor and / or the at least one test gas.